Add to ORKGThis paper proposes a three-dimensional (3D) sonar mapping method and autonomous underwater vehicle (AUV) localization method using two-dimensional (2D) sonar image sequences of an imaging sonar. The 2D sonar image sequences are registered to generate a 2D mosaic sonar map. In this process, we can estimate the displacement and rotation relationship between the sonar image pairs, and use this to estimate the position of the AUV. A 3D point cloud is generated from 2D sonar image sequences. This method takes advantage of the mobility of the AUV to reconstruct the height information, and partially solves the ambiguity issues in the elevation angle of the imaging sonar. The height map is generated by accumulating the 3D point cloud. By fusing tw...
Underwater is very harsh environment in robotics. A reliable localization is one of the fundamental ...
Navigation of a deep-sea autonomous underwater vehicle (AUV) is a difficult task in cases where no a...
This paper introduces a methodology applying an imaging sonar for three-dimensional (3D) target trac...
This paper proposes a three-dimensional (3D) sonar mapping method and autonomous underwater vehicle ...
This paper proposes a 3D sonar mapping method and autonomous underwater vehicle (AUV) localization m...
This study proposes a method for generating a high-precision three-dimensional (3D) map using twodim...
An imaging sonar loses information of elevation angle while a mapping process. To overcome this limi...
This paper proposes a method based on an imaging sonar to obtain underwater terrain information. The...
To expand operation coverage and period of time with low cost, self-localization is needed for long ...
In this paper, we propose an underwater object scanning scheme using AUV and imaging sonar. The 3D p...
3D mapping is one of themost significant abilities for autonomous underwater vehicles (AUV). This pa...
We present herein a three-dimensional (3D) mapping method in one-way rectilinear scanning with an au...
This study addresses a method for 3D reconstruction using acoustic data with heterogeneous sonar dev...
This paper presents a system to provide augmented localization to an AUV equipped with a side scan s...
This study proposes a 3-D seafloor scanning method using sonar images obtained by an acoustic lens-b...
Underwater is very harsh environment in robotics. A reliable localization is one of the fundamental ...
Navigation of a deep-sea autonomous underwater vehicle (AUV) is a difficult task in cases where no a...
This paper introduces a methodology applying an imaging sonar for three-dimensional (3D) target trac...
This paper proposes a three-dimensional (3D) sonar mapping method and autonomous underwater vehicle ...
This paper proposes a 3D sonar mapping method and autonomous underwater vehicle (AUV) localization m...
This study proposes a method for generating a high-precision three-dimensional (3D) map using twodim...
An imaging sonar loses information of elevation angle while a mapping process. To overcome this limi...
This paper proposes a method based on an imaging sonar to obtain underwater terrain information. The...
To expand operation coverage and period of time with low cost, self-localization is needed for long ...
In this paper, we propose an underwater object scanning scheme using AUV and imaging sonar. The 3D p...
3D mapping is one of themost significant abilities for autonomous underwater vehicles (AUV). This pa...
We present herein a three-dimensional (3D) mapping method in one-way rectilinear scanning with an au...
This study addresses a method for 3D reconstruction using acoustic data with heterogeneous sonar dev...
This paper presents a system to provide augmented localization to an AUV equipped with a side scan s...
This study proposes a 3-D seafloor scanning method using sonar images obtained by an acoustic lens-b...
Underwater is very harsh environment in robotics. A reliable localization is one of the fundamental ...
Navigation of a deep-sea autonomous underwater vehicle (AUV) is a difficult task in cases where no a...
This paper introduces a methodology applying an imaging sonar for three-dimensional (3D) target trac...